A capillary-driven microfluidic device for performing spatial multiplex PCR

Abstract

Multiplex polymerase chain reaction (PCR) tests multiple biomarkers or pathogens that cause overlapping symptoms, making it an essential tool in syndromic testing. To achieve a multiplex PCR on chip, a design based on capillary-driven fluidic actuation is proposed. Our silicon chip features 22 reaction chambers and allows primers and probes to be pre-spotted in the reaction chambers prior to use. The design facilitates rapid sample loading through a common inlet channel, delivering reagents to all reaction chambers in less than 10 s. A custom clamping mechanism combined with a double depth cavity design ensures proper sealing during temperature cycling without the need for extra reagents like oil. Temperature cycling and fluorescence imaging were performed using custom-made hardware. As a proof of concept, two single nucleotide polymorphisms (SNPs), CyP2C19*2 and PCSK9 were detected. These results demonstrate the feasibility of on-chip multiplex PCR, compatible with different assays in parallel and requiring only a single pipetting step for reagent loading, without active fluidic actuation like pumping.